Effect of Lactose on Phosphate Transport into Rat Intestinal Brush Border Membrane Vesicles

Abstract

Brush border membrane vesicles (BBMV) were used to evaluate the influence of lactose on phosphate (P_i) transport in the intestine of the rat. BBMV were prepared from duodenum, jejunum and ileum of 3-, 4- and 7-wk-old rats. Na⁺-dependent active transport of P_i was investigated in the presence of an Na⁺ gradient; Na⁺-independent, diffusional transport was investigated by substitution of choline chloride for NaCl. In 3-wk-old rats active P_i transport dominated, whereas in 4-wk-old rats a decrease in active transport and an increase of the diffusional component of total P_i transport were observed. Furthermore, in 7-wk-old rats, P_i was transported by simple diffusion alone. Addition of lactose to the preincubation medium had no effect on P_i transport in duodenal and jejunal BBMV isolated from 3-wk-old rats. In the remaining BBMV preparations, lactose caused a twofold enhancement of diffusional P_i uptake. Glucose and galactose had no effect on diffusional P_i uptake into BBMV. These results indicate that lactose may directly interact with luminal membranes, thus leading to increased diffusional transport. The membranes with a decreased Na⁺-dependent P_i transport activity are most susceptible to the influence of lactose.